esp-idf/components
2023-08-02 15:04:47 +05:30
..
app_trace apptrace: move all apptrace related functions to IRAM 2022-06-29 10:17:48 +08:00
app_update docs: fix all doxygen warnings 2022-07-05 11:14:40 +08:00
asio
bootloader Merge branch 'feature/apply_new_version_logic_v4.4' into 'release/v4.4' 2023-03-10 14:52:18 +08:00
bootloader_support bootloader: cleanup ana reset config code 2023-07-21 03:12:53 +08:00
bt fix(nimble): Update connection type in reattempt connection code 2023-07-20 09:40:24 +05:30
cbor
cmock
coap
console console: argtable3: upgrade to v3.2.2 2022-11-10 11:05:24 +01:00
cxx
driver fix(gpio): fix potential crash when processing gpio isr 2023-07-19 20:02:13 +08:00
efuse hal: Explicit setting of efuse time settings 2023-05-13 00:06:35 +08:00
esp32 kconfigs: Fix config issues raised by gen_kconfig_doc.py 2023-03-03 22:26:39 +00:00
esp32c3 kconfigs: Fix config issues raised by gen_kconfig_doc.py 2023-03-03 22:26:39 +00:00
esp32h2 kconfigs: Fix config issues raised by gen_kconfig_doc.py 2023-03-03 22:26:39 +00:00
esp32s2 Merge branch 'feature/apply_new_version_logic_v4.4' into 'release/v4.4' 2023-03-10 14:52:18 +08:00
esp32s3 Merge branch 'feature/apply_new_version_logic_v4.4' into 'release/v4.4' 2023-03-10 14:52:18 +08:00
esp_adc_cal
esp_common fix(wifi): Fix SAE and SAE related NVS issues 2023-07-24 15:34:41 +05:30
esp_eth Merge branch 'bugfix/eth_lan8720_ci_v4.4' into 'release/v4.4' 2023-06-13 16:42:07 +08:00
esp_event
esp_gdbstub
esp_hid esp_hid: fixed ble hid battery level setting 2023-06-16 16:28:00 +08:00
esp_http_client esp_http_client: free cached data in case connection gets closed for redirection 2022-10-26 10:11:33 +05:30
esp_http_server esp_http_server: fix return values for httpd_socket_send() and httpd_socket_recv() APIs 2023-02-10 10:57:22 +05:30
esp_https_ota esp_https_ota: fix bug where http_client_init_cb is called after esp_http_client_perform() instead of before. 2022-09-02 16:15:50 +05:30
esp_https_server esp_https_server: Fix initializers missing in esp_https_server 2022-12-07 15:10:03 +08:00
esp_hw_support bugfix: fix adc current leakage by sar_adc on v4.4 2023-06-21 14:08:25 +08:00
esp_ipc esp_system: Fix a race-condition in esp_ipc_isr (in QEMU env) 2023-05-30 23:04:31 +08:00
esp_lcd spi: added an API to get max transaction length and use in spi lcd driver 2023-05-19 09:30:06 +00:00
esp_local_ctrl esp_local_ctrl: Regenerated proto-c and python with protobuf compiler v3.21.0 2022-06-07 15:59:41 +05:30
esp_netif esp_netif/lwip: Fix core-locking config (v4.4) 2023-03-21 10:31:20 +01:00
esp_phy esp_phy:update comments in esp_phy_init.h 2023-07-26 11:58:11 +08:00
esp_pm bugfix: increase pm_dump time field width 2023-07-10 06:37:35 +00:00
esp_ringbuf rename xHoldSemaphore to result 2022-08-12 17:54:34 +08:00
esp_rom fix(wifi): missed annotate ld function from txop fix 2023-07-25 12:54:20 +08:00
esp_serial_slave_link SPI: Fixed Quad SPI wrong dummy cycle issue on ESP32C3/ESP32S3 and put get-command/dummy-bits functions in spi_ll.h 2022-09-07 18:55:38 +08:00
esp_system fix(cache): add lock to protect cache sync operation 2023-07-24 10:45:00 +08:00
esp_timer improve thread safety in esp_timer 2023-05-02 20:22:51 +02:00
esp_websocket_client
esp_wifi fix(esp_wifi): fix ret when setting channel at wifi not started 2023-07-27 10:43:11 +08:00
esp-tls esp_tls: Fix issue when timeout is not explicitly given in esp_tls_cfg_t 2022-12-21 14:42:44 +05:30
espcoredump bugfix: avoid warning in espcoredump when log disabled 2023-08-02 15:04:47 +05:30
esptool_py esptool: Update esptool 2023-04-20 13:58:51 +08:00
expat expat: Upgrade version to release v2.5.0 2022-11-28 13:55:21 +05:30
fatfs fatfs: fix incorrect mtime returned for files created during DST 2022-06-09 22:02:46 +02:00
freemodbus freemodbus: remove component manifest file from freemodbus subrepo 2023-03-10 17:23:32 +08:00
freertos freertos: Fix Systick stuck when systimer was not reset 2023-06-20 15:56:53 +08:00
hal fix(adc): fixed esp32, esp32s2,esp32s3 adc oneshot mode clk div issue 2023-07-12 17:24:19 +08:00
heap heap: Fix erroneous value returned by heap_caps_get_allocated_size() when poisoning is enabled 2023-02-22 07:32:49 +01:00
idf_test
ieee802154
jsmn
json
libsodium
linux
log
lwip fix(dhcp server): Fix dhcp server address pool issue 2023-07-26 12:48:20 +08:00
mbedtls fix(mbedtls): Fixed the transmission of return values of the esp-aes APIs 2023-07-20 18:54:37 +05:30
mdns components/mdns: use semaphore instead of task notification bits (IDFGH-9380) 2023-03-24 09:03:35 +01:00
mqtt Merge branch 'feature/mqtt_cmakefile_cleanup_v4.4' into 'release/v4.4' 2022-11-25 19:27:08 +08:00
newlib Set errno in adjtime if delta is too large 2023-03-03 18:15:52 +08:00
nghttp
nvs_flash bugfix(nvs_flash): fixed wrong error check after open_nvs_handle 2023-02-10 10:00:13 +08:00
openssl
openthread
partition_table partition_table: fix make build for new "--secure [v1/v2]" argument 2023-02-12 21:29:39 +05:30
perfmon
protobuf-c protobuf-c: Update submodule to v1.4.1 2023-07-07 04:49:27 +00:00
protocomm wifi_prov_mgr: Fixed memory leak after bluetooth stack was stopping. 2023-07-17 06:05:36 +00:00
pthread
riscv C/Cxx: unify static assertions with the macro ESP_STATIC_ASSERT 2022-12-05 18:16:08 +08:00
sdmmc sdmmc: sdio combination cards correct setup 2023-04-26 13:28:20 +02:00
soc bootloader: fixed super watchdog not enabled issue on C3, S3, H4 2023-07-21 03:12:52 +08:00
spi_flash fix(cache): add lock to protect cache sync operation 2023-07-24 10:45:00 +08:00
spiffs C/Cxx: unify static assertions with the macro ESP_STATIC_ASSERT 2022-12-05 18:16:08 +08:00
tcp_transport [tcp_transport] Fix initialition of transport 2022-09-12 11:49:25 +02:00
tcpip_adapter
tinyusb fix usb resume bug on esp32sx 2023-04-27 10:47:46 +08:00
touch_element touch_element: fix unintended integer division 2023-06-20 10:47:06 +08:00
ulp ulp-riscv: ULP RISC-V I2C example gets stuck on esp32s2 2023-01-02 14:24:16 +01:00
unity
usb usbh: fix invalid assert on desc_status 2023-06-20 10:47:06 +08:00
vfs vfs_uart: fix out-of-bounds read 2023-06-20 10:47:06 +08:00
wear_levelling
wifi_provisioning Wifi Prov: Disabled the default support for BLE Encrpytion on characteristics read /write 2022-11-25 14:18:15 +05:30
wpa_supplicant fix(wifi): Fix SAE and SAE related NVS issues 2023-07-24 15:34:41 +05:30
xtensa coredump: custom core dump stack is now supported on Xtensa targets 2022-12-26 12:24:26 +01:00
README.md

Core Components

Overview

This document contains details about what the core components are, what they contain, and how they are organized.

Organization

The core components are organized into two groups.

The first group (referred to as G0 from now on) contains hal, xtensa and riscv (referred to as arch components from now on), esp_rom, esp_common, and soc. This group contain information about and low-level access to underlying hardware; or in the case of esp_common, hardware-agnostic code and utilities. These components can depend on each other, but as much as possible have no dependencies outside the group. The reason for this is that, due to the nature of what these components contain, the likelihood is high that a lot of other components will require these. Ideally, then, the dependency relationship only goes one way. This makes it easier for these components, as a group, to be usable in another project. One can conceivably implement a competing SDK to ESP-IDF on top of these components.

The second group (referred to as G1 from now on) sits at a higher level than the first group. This group contains the components esp_hw_support, esp_system, newlib, spi_flash, freertos, log, and heap. Like the first group, circular dependencies within the group are allowed; and being at a higher level, dependency on the first group is allowed. These components represent software mechanisms essential to building other components.

Descriptions

The following is a short description of the components mentioned above.

G0 Components

hal

Contains the hardware abstraction layer and low-level operation implementations for the various peripherals. The low-level functions assign meaningful names to register-level manipulations; the hardware abstraction provide operations one level above this, grouping these low-level functions into routines that achieve a meaningful action or state of the peripheral.

Example:

  • spi_flash_ll_set_address is a low-level function part of the hardware abstraction spi_flash_hal_read_block

arch

Contains low-level architecture operations and definitions, including those for customizations (can be thought of on the same level as the low-level functions of hal). This can also contain files provided by the architecture vendor.

Example:

  • xt_set_exception_handler
  • riscv_global_interrupts_enable
  • ERI_PERFMON_MAX

esp_common

Contains hardware-agnostic definitions, constants, macros, utilities, 'pure' and/or algorithmic functions that is useable by all other components (that is, barring there being a more appropriate component to put them in).

Example:

  • BIT(nr) and other bit manipulation utilities in the future
  • IDF_DEPRECATED(REASON)
  • ESP_IDF_VERSION_MAJOR

soc

Contains description of the underlying hardware: register structure, addresses, pins, capabilities, etc.

Example:

  • DR_REG_DPORT_BASE
  • SOC_MCPWM_SUPPORTED
  • uart_dev_s

esp_rom

Contains headers, linker scripts, abstraction layer, patches, and other related files to ROM functions.

Example:

  • esp32.rom.eco3.ld
  • rom/aes.h

G1 Components

spi_flash

SPI flash device access implementation.

freertos

FreeRTOS port to targets supported by ESP-IDF.

log

Logging library.

heap

Heap implementation.

newlib

Some functions n the standard library are implemented here, especially those needing other G1 components.

Example:

  • malloc is implemented in terms of the component heap's functions
  • gettimeofday is implemented in terms of system time in esp_system

esp_system

Contains implementation of system services and controls system behavior. The implementations here may take hardware resources and/or decide on a hardware state needed for support of a system service/feature/mechanism. Currently, this encompasses the following, but not limited to:

  • Startup and initialization
  • Panic and debug
  • Reset and reset reason
  • Task and interrupt watchdogs

esp_hw_support

Contains implementations that provide hardware operations, arbitration, or resource sharing, especially those that is used in the system. Unlike esp_system, implementations here do not decide on a hardware state or takes hardware resource, acting merely as facilitator to hardware access. Currently, this encompasses the following, but not limited to:

  • Interrupt allocation
  • Sleep functions
  • Memory functions (external SPIRAM, async memory, etc.)
  • Clock and clock control
  • Random generation
  • CPU utilities
  • MAC settings

esp_hw_support vs esp_system

This section details list some implementations and the reason for placing it in either esp_hw_support or esp_system.

task_wdt.c (esp_system) vs intr_alloc.c (esp_hw_support)

The task watchdog fits the definition of taking and configuring hardware resources (wdt, interrupt) for implementation of a system service/mechanism.

This is in contrast with interrupt allocation that merely facilitates access to the underlying hardware for other implementations - drivers, user code, and even the task watchdog mentioned previously!

crosscore_int.c (esp_system)

The current implementation of crosscore interrupts is tightly coupled with a number of interrupt reasons associated with system services/mechanisms: REASON_YIELD (scheduler), REASON_FREQ_SWITCH (power management) REASON_PRINT_BACKTRACE (panic and debug).

However, if an implementation exists that makes it possible to register an arbitrary interrupt reason - a lower level inter-processor call if you will, then this implementation is a good candidate for esp_hw_support. The current implementation in esp_system can then just register the interrupt reasons mentioned above.

esp_mac.h, esp_chip_info.h, esp_random.h (esp_hw_support)

The functions in these headers used to be in esp_system.h, but have been split-off. However, to maintain backward compatibility, esp_system.h includes these headers.

The remaining functions in esp_system.h are those that deal with system behavior, such as esp_register_shutdown_handler, or are proxy for other system components's APIs such as esp_get_free_heap_size.

The functions split-off from esp_system.h are much more hardware manipulation oriented such as: esp_read_mac, esp_random and esp_chip_info.